Wnt-5a Signalling - A Novel Therapy For Triple Negative And Tamoxifen Resistant Breast Cancer Patients
Funder
National Health and Medical Research Council
Funding Amount
$330,534.00
Summary
Breast cancer is the most common cancer in women. Commonly used drugs target the estrogen receptor (ER). However, one third of breast cancer patients lack ER, and do not respond to treatment. Cancers that lack ER also lack a gene called Wnt5a, which is linked to better prognosis. We have shown that fixing Wnt5a can restore ER allowing cells to respond to Tamoxifen. We would now test this in animals, in the hope of developing a new drug for breast cancer patients currently with limited options.
Linking Estrogens, Prostatitis And Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$291,309.00
Summary
Prostatitis is very common and a significant health issue that affects men from their 20's. Estrogens promote inflammation and inflammation is associated with the development of cancer. If this study links estrogens, prostatitis and prostate cancer, we can provide better treatment for prostatitis, thus preventing progression to prostate cancer
Cognitive Enhancement In Schizophrenia Via Selective Oestrogen Receptor Modulator.
Funder
National Health and Medical Research Council
Funding Amount
$396,380.00
Summary
Cognitive dysfunction in schizophrenia is resistant to treatment and related to poor community functioning and quality of life. In spite of the widely appreciated magnitude of the problem, there is still a critical gap in our knowledge concerning treatments to reverse these cognitive deficits. The proposed research is significant because it will clarify the role of hormones and genes in relation to cognitive deficits in schizophrenia and it may help patients improve their level of functioning.
The steroid hormone estrogen plays a critical role in the development of human breast cancer. Anti-estrogen therapy has been believed to be an effective treatment of breast cancer over more than 100 years. However, the anti-estrogen therapy is still restricted mainly because of that estrogen has fundamental physiological actions and a wide range of beneficial effects on bone, brain, cardiovascular and other targeted tissues. Thus, it has become a primary focus of inquiry to understand how estrog ....The steroid hormone estrogen plays a critical role in the development of human breast cancer. Anti-estrogen therapy has been believed to be an effective treatment of breast cancer over more than 100 years. However, the anti-estrogen therapy is still restricted mainly because of that estrogen has fundamental physiological actions and a wide range of beneficial effects on bone, brain, cardiovascular and other targeted tissues. Thus, it has become a primary focus of inquiry to understand how estrogen specifically functions in breast cancer but not in normal tissues. Estrogen serves different functions involving a series of biochemical reactions called signal transduction pathways that can couple estrogen to a specific function, such as cancer formation. We have recently found that a enzyme named sphingosine kinase (SK) activation triggers a novel signal transduction pathway in regulation of cell growth and tumour formation, and that this pathway was activated by estrogen in human breast cancer cells. Thus, we seek to identify how estrogen activate SK and how they contribute to the development of breast cancer. It will ultimately provide a potential target for therapeutic intervention and may yield new compounds that have clinical benefit for anti-breast-cancer.Read moreRead less
Role Of The Inositol Polyphosphate 4-phosphatase Type 2 In Human Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$611,032.00
Summary
Breast cancer is the most invasive cancer in females, affecting 1 in 9 women before the age of 85. Normally cells only divide when they receive a stimulus from a hormone or growth factor. The PI3K pathway responds to these stimuli and has been implicated in cancer when cells divide uncontrollably and invade surrounding tissue. We have identified a potential cancer suppressing gene, 4-ptase-2 that turns off the PI3K growth signals. We aim to characterize the role of 4-ptase-2 in breast cancer.
Inhibition Of Estrogen Signalling By Androgen Receptors: A Potential Mechanism For Suppression Of Breast Cancer Growth.
Funder
National Health and Medical Research Council
Funding Amount
$525,000.00
Summary
Breast cancer is a major health problem in Western countries including Australia, where it is the second-leading cause of cancer deaths in women. Breast cells require female sex hormones, called estrogens, for their growth and survival and consequently most current treatments for breast cancer aim to block the actions of these hormones in breast cancer cells. However there is still a large proportion of women who do not respond to these therapies or have an initial response but subsequently deve ....Breast cancer is a major health problem in Western countries including Australia, where it is the second-leading cause of cancer deaths in women. Breast cells require female sex hormones, called estrogens, for their growth and survival and consequently most current treatments for breast cancer aim to block the actions of these hormones in breast cancer cells. However there is still a large proportion of women who do not respond to these therapies or have an initial response but subsequently develop resistance. Evidence from our laboratory and others indicates that the male sex hormones, androgens, also play an important role in breast cancer. Androgens oppose the effects of estrogens in breast cancer cells, and inhibit their growth. Historically androgens were used to treat patients with advanced breast cancer, with good results, but the masculinising side effects (eg excess hair growth and acne) of these hormones led to a discontinuation of their use since the 1960s. The major objective of our current studies is to determine how androgens can stop breast cancer cells from growing by investigating the effects of the androgen receptor, which mediates the growth regulatory effects of androgens, in breast cancer cells. We believe that a better understanding of this signalling pathway could potentially lead to new treatments for breast cancer that act more specifically to inhibit cancer growth without the unpleasant side effects of androgenic drugs.Read moreRead less